RU2488071C1 - Charge for hunting shot of 12, 16, 20 caliber - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: charge consists of spherical powder arranged in encapsulated cartridge case with felt, wood wads and shots. charge is composed of spherical powder elements consisting of the mix of 70-90 wt % of gun-cotton with content of nitrogen oxide of 209.0-210.5 ml NO/g and 10-30 wt % of gun-cotton with content of nitrogen oxide of 212.5-213.5 ml NO/g, 0.3-1.0 wt % of diphenylamine, 0.1-0.6 wt % of graphite, 0.3-0.8 wt % of ethyl acetate, 0.4-0.9 wt % of moisture, of bulk density of 0.520-0.650 kg/dm³. Said mix of spherical powder elements features the following ratio of fractions, wt %: weight fraction of powder after minus 0.7 sieve and plus 0.4 sieve- not over 85, weight fraction of coarse grains after plus 0.4 sieve and minus 0.7 sieve - not over 15.

EFFECT: better characteristics in shooting.

1 tbl, 1 dwg

Description

The invention relates to the field of production of spherical powders (TFP) for charges to small arms.

A number of charges are known for cartridges of these calibers, manufactured in the USSR for hunting and sports purposes, containing gunpowder "Falcon" (GOST 22781-77) and "Bars" (TU 84-720-77).

The charge for the Sokol cartridge has a mass of 2.0 ... 2.4 g and consists of lamellar gunpowder 0.11 ... 0.14 mm thick and a rib length of 1.24 ... 1.6 mm. The total number of large and small plates remaining on the sieve 1.4 and passed through a sieve of 0.56 for the specified charge is not more than 0.5 wt.%. In the charge of gunpowder of the Bars brand, a dibasic SPP is used with an average grain diameter of 0.45 ± 0.05 mm, consisting of fractions 0.25 ... 0.5 mm, more than 0.5 mm and less than 0.25 mm, not more than 6 , 0 wt.%. All of the listed powder charges basically satisfy the requirements for sporting and hunting weapons in terms of ballistic characteristics, but they have high muzzle pressure of powder gases (3.4 ... 6.4 MPa).

The closest technical solution in relation to the declared one is the charge from the dibasic TFP of the Bars brand (TU 84-720-77). This charge, produced by domestic industry, has the following disadvantages: high muzzle pressure of powder gases (54-59 kgf / cm ² at a rate of not more than 55 kgf / cm ² ). This leads to the fact that up to 80% of industrially manufactured batches of gunpowder do not meet the requirements: high average pressure of the powder gases in the barrel of the weapon. The charge has a mass close to the maximum permissible (2.58 g ... 2.68 g at a rate of not more than 2.6 g), which leads to high recoil energy when fired and, as a result, leads to rapid fatigue of the shooter. The high mass of the powder charge leads to the height of the barrel of the weapon, which reduces the resource of the weapon, high fiery when fired, because the large mass of the powder charge does not ensure its complete combustion in the barrel of the weapon. It has been established that up to 30 wt.% Of the powder charge burns down behind the cut of the barrel of the weapon, and this leads to high muzzle pressure, high recoil during firing, high flame and sound.

The aim of the invention is to develop for hunting weapons 12, 16 and 20 calibers of powder charge with a low mass of powder charge, low muzzle pressure, low flame and sound when fired.

This goal is achieved in that the powder charge for cartridges for hunting rifles 12, 16 and 20 calibers is made of spherical powder elements, consisting of a mixture of 70 ... 90 wt.% Pyroxylin with a content of nitric oxide of 209.0 ... 210.5 ml NO / g and 10 ... 30 wt.% pyroxylin with a nitric oxide content of 212.5 ... 213.5 ml NO / g, 0.3 ... 1.0 wt.% diphenylamine, 0.1 ... 0.6 wt.% graphite, 0, 3 ... 0.8 wt.% Ethyl acetate, 0.4 ... 0.9 wt.% Moisture, with a bulk density of 0.520 ... 0.650 kg / dm ³ , in the following ratio of fractions, wt.%:

- mass fraction of gunpowder that has passed through a grid of 0.7 and remaining on mesh 0.4, no more 85 - mass fraction of large grains, remaining on the grid 0.7 and passed through mesh 04, no more fifteen.

View hunting cartridge for hunting rifles shown in the drawing. The cartridge consists of a sleeve 1 with a primer 2, in which a powder charge 3, gasket 4, felt wad 5, shot 6 and gasket 7 are placed.

Specified requirements for a hunting cartridge for 12-gauge rifles: shot weight - 32 g, powder charge mass - 1.6 ... 1.85 g, shotgun projectile speed in a ballistic troupe at a distance of 10 m from the muzzle, average - at least 325 m / s, the difference between the highest and lowest values of the flight speed of a shotgun bullet in the ballistic group is not more than 18 m / s, the maximum pressure of powder gases in the ballistic group, MPa: average 551.9 ... 61.7, the largest - not more than 66, 7, the muzzle pressure of the powder gases on the cut of the barrel of the weapon is not more than 3.4.

The authors found that the use of a mixture of pyroxylin with a different content of nitric oxide: 70 ... 90 wt.% With a content of nitric oxide of 209.0 ... 210.5 ml NO / g and 10 ... 30 wt.% With a content of nitric oxide 212.5 ... 213 5 ml of NO / g provides TFP with uniformly distributed porosity. This allows you to increase the burning rate of the powder charge. Basically, the powder charge burns in the breech of the weapon, and the powder gases work along the length of the gun channel. In this case, the burning of powder elements beyond the cut of the barrel of the weapon does not occur.

An increase in pyroxylin with a content of nitric oxide of 209.02 ... 10.5 ml NO / g more than 90 wt.% And a decrease in pyroxylin with a content of nitric oxide of 212.5 ... 213.5 ml of NO / g less than 10 wt.% Leads to an increase in the mass of powder charge, and a decrease in pyroxylin with a nitric oxide content of 209.0 ... 210.5 ml NO / g less than 70 wt.% and pyroxylin with a nitric oxide content of 212.5 ... 213.5 ml NO / g more than 30 wt.% leads to an increase pressure of powder gases in the barrel of a weapon.

Diphenylamine in an amount of 0.3 ... 1.0 wt.% In the composition of the powder charge acts as a stabilizer of chemical resistance. A decrease in diphenylamine of less than 0.3 wt.% Leads to a decrease in the chemical resistance of the powder charge, and an increase in diphenylamine of more than 1.0 wt.% Leads to a decrease in the energy of the powder.

Graphite in the composition of the powder charge in an amount of 0.1 ... 0.6 wt.% Plays the role of a stabilizer of combustion, improves the flowability of the powder and electrostatic characteristics. A decrease in graphite of less than 0.1 wt.% Has no positive effects, and an increase in graphite in the composition of the powder charge of more than 0.6 wt.% Reduces the energy of the powder.

Ethyl acetate and moisture in the composition of the powder charge play the role of technological additives. A decrease in ethyl acetate less than 0.3 wt.% And moisture less than 0.4 wt.% Is associated with technological difficulties, and an increase in ethyl acetate more than 0.8 wt.% And moisture more than 0.9 wt.% Leads to a decrease in the energy of the powder charge.

The bulk density of the powder charge in the range of 0.520 ... 0.650 kg / dm ³ provides stable ballistic characteristics of the hunting cartridge. A decrease in the bulk density of the powder charge of less than 0.520 kg / dm ³ leads to an increase in the pressure of the powder gases in the channel of the barrel of the weapon, and an increase in the bulk density of the powder charge of more than 0.650 kg / dm ³ leads to an increase in the mass of the powder charge.

The fractional composition of spherical powder in a powder charge provides stable ballistic characteristics. An increase in the fraction of 0.7 ... 0.4 mm of the powder charge of more than 85 wt.% Leads to an increase in the mass of the powder charge, and an increase in the large and small fractions of gunpowder more than 15 wt.% Leads to an increase in the pressure of the powder gases in the barrel of the weapon.

The table shows the results of the physico-chemical and ballistic characteristics of the powder charge for a hunting cartridge of 12 calibers within the boundary conditions (examples 1 ... 3) and outside the boundary conditions (examples 4, 5).

From the above table data it is seen that the developed charge for a hunting cartridge of 12 caliber within the boundary conditions (examples 1 ... 3) satisfies all the given requirements.

Table Physico-chemical and ballistic characteristics of the powder charge for a hunting cartridge 12 gauge The name of indicators Example (Ex. No. 1) Etc. Number 2 Etc. Number 3 Etc. Number 4 Etc. Number 5 Pyroxylin with a nitric oxide content of 209.02 ... 10.5 ml NO / g, wt.% 70 80 90 60 95 Pyroxylin with a nitric oxide content of 212.5 ... 213.5 ml NO / g, wt.% thirty twenty 10 40 5 Diphenylamine, wt.% 0.3 0.6 1,0 0.2 1,2 Graphite, wt.% 0.1 0.4 0.6 0.05 0.6 Ethyl acetate, wt.% 0.3 0.5 0.8 0.2 1,2 Moisture, wt.% 0.4 0.6 0.9 0.2 1,2 Bulk density, kg / dm ³ 0.52 0.60 0.65 0.48 0.8 Fraction 0.7 ... 0.4 mm, wt.% 88 86 85 70 86 The sum of large and small things 12 fourteen fifteen thirty fourteen Ballistic characteristics Fraction mass, g 32 32 32 32 32 Mass of powder charge 1.85 1.84 1.85 1.8 2.1 The speed of the shot projectile in the ballistic group at a distance of 10 mm from the muzzle, m / s 325 326 325 318 321 The difference between the largest and smallest values of the velocity of the shot projectile in the ballistic group 16 fourteen fifteen twenty thirty The maximum pressure of the powder gases, MPa The average maximum pressure of the powder gases in the ballistic group 55.8 56.8 58.4 66.7 70.5 The highest maximum pressure of the powder gases in the ballistic group 30,4 31,4 30.9 70.6 74.5 Muzzle pressure 2,4 2,5 2.2 3.3 3,5

So the mass of the powder charge for the cartridge 12 gauge is reduced to 1.84 g at a flight speed of a shot projectile 325 m / s and an average minimum pressure of 57.8 MPa. In this case, the muzzle pressure of the powder gases at the cut of the weapon barrel does not exceed 2.5 MPa. This allows you to reduce recoil when fired, increase accuracy and reduce fiery.

Outside the boundary conditions (examples 4, 5), the resulting powder charge does not satisfy the requirements of ballistic characteristics.

Claims (1)

The charge for a hunting cartridge of 12, 16 and 20 calibers, consisting of spherical powder, placed in a capsular sleeve with felt and wood wads and shots, characterized in that the charge is made of spherical powder elements, consisting of a mixture of 70 ... 90 wt.% pyroxylin with a nitric oxide content of 209.0 ... 210.5 ml NO / g and 10 ... 30 wt.% pyroxylin with a nitric oxide content of 212.5 ... 213.5 ml NO / g, 0.3 ... 1.0 wt.% diphenylamine, 0.1 ... 0.6 wt.% graphite, 0.3 ... 0.8 wt.% ethyl acetate, 0.4 ... 0.9 wt.% moisture, with a bulk density of 0.520 ... 0.650 kg / dm ³ , at the following ratio of fractions th, wt.%:
- mass fraction of gunpowder passing through a grid of 0.7 and remaining on the grid of 0.4, not more than 85,
- mass fraction of large grains remaining on the grid 0.7 and passing through the grid 0.4, not more than 15.